/* IPFW backward compatibility */

#ifndef _IP_FW_COMPAT_H_
#define _IP_FW_COMPAT_H_

/* prototypes */
void	ipfw_convert_from_latest(struct ip_fw *curr_rule, void *old_rule, u_int32_t api_version, int is64user);
int		ipfw_convert_to_latest(struct sockopt *sopt, struct ip_fw *rule, int api_version, int is64user);
int	ipfw_get_command_and_version(struct sockopt *sopt, int *command, u_int32_t *api_version);


/*
 * ******************************
 * ****** IPFW version one ******
 * ******************************
 */

/*
 * This union structure identifies an interface, either explicitly
 * by name or implicitly by IP address. The flags IP_FW_F_IIFNAME
 * and IP_FW_F_OIFNAME say how to interpret this structure. An
 * interface unit number of -1 matches any unit number, while an
 * IP address of 0.0.0.0 indicates matches any interface.
 *
 * The receive and transmit interfaces are only compared against the
 * the packet if the corresponding bit (IP_FW_F_IIFACE or IP_FW_F_OIFACE)
 * is set. Note some packets lack a receive or transmit interface
 * (in which case the missing "interface" never matches).
 */

union ip_fw_if_compat {
    struct in_addr fu_via_ip;	/* Specified by IP address */
    struct {			/* Specified by interface name */
#define FW_IFNLEN_COMPAT     10 /* need room ! was IFNAMSIZ */
	    char  name[FW_IFNLEN_COMPAT];
	    short unit;		/* -1 means match any unit */
    } fu_via_if_compat;
};

/*
 * Format of an IP firewall descriptor
 *
 * fw_src, fw_dst, fw_smsk, fw_dmsk are always stored in network byte order.
 * fw_flg and fw_n*p are stored in host byte order (of course).
 * Port numbers are stored in HOST byte order.
 */


struct ip_fw_compat {
	u_int32_t version;		/* Version of this structure.  Should always be */
							/* set to IP_FW_CURRENT_API_VERSION by clients. */
	void *context;			/* Context that is usable by user processes to */
							/* identify this rule. */
    u_int64_t fw_pcnt,fw_bcnt;		/* Packet and byte counters */
    struct in_addr fw_src, fw_dst;	/* Source and destination IP addr */
    struct in_addr fw_smsk, fw_dmsk;	/* Mask for src and dest IP addr */
    u_short fw_number;			/* Rule number */
    u_int fw_flg;			/* Flags word */
#define IP_FW_MAX_PORTS_COMPAT	10		/* A reasonable maximum */
	union {
		u_short fw_pts[IP_FW_MAX_PORTS_COMPAT];	/* Array of port numbers to match */
#define IP_FW_ICMPTYPES_MAX_COMPAT	128
#define IP_FW_ICMPTYPES_DIM_COMPAT	(IP_FW_ICMPTYPES_MAX_COMPAT / (sizeof(unsigned) * 8))
		unsigned fw_icmptypes[IP_FW_ICMPTYPES_DIM_COMPAT]; /* ICMP types bitmap */
	} fw_uar_compat;
    u_int fw_ipflg;			/* IP flags word */
    u_char fw_ipopt,fw_ipnopt;		/* IP options set/unset */
    u_char fw_tcpopt,fw_tcpnopt;	/* TCP options set/unset */
    u_char fw_tcpf,fw_tcpnf;		/* TCP flags set/unset */
    long timestamp;			/* timestamp (tv_sec) of last match */
    union ip_fw_if_compat fw_in_if, fw_out_if;	/* Incoming and outgoing interfaces */
    union {
		u_short fu_divert_port;		/* Divert/tee port (options IPDIVERT) */
		u_short fu_pipe_nr;		/* queue number (option DUMMYNET) */
		u_short fu_skipto_rule;		/* SKIPTO command rule number */
		u_short fu_reject_code;		/* REJECT response code */
		struct sockaddr_in fu_fwd_ip;
    } fw_un_compat;
    u_char fw_prot;			/* IP protocol */
	/*
	 * N'of src ports and # of dst ports in ports array (dst ports
	 * follow src ports; max of 10 ports in all; count of 0 means
	 * match all ports)
	 */
    u_char fw_nports;
    void *pipe_ptr;                    /* flow_set ptr for dummynet pipe */
    void *next_rule_ptr ;              /* next rule in case of match */
    uid_t fw_uid;			/* uid to match */
    int fw_logamount;			/* amount to log */
    u_int64_t fw_loghighest;		/* highest number packet to log */
};

/*
 * extended ipfw structure... some fields in the original struct
 * can be used to pass parameters up/down, namely pointers
 *     void *pipe_ptr
 *     void *next_rule_ptr 
 * some others can be used to pass parameters down, namely counters etc.
 *     u_int64_t fw_pcnt,fw_bcnt;
 *     long timestamp;
 */

struct ip_fw_ext_compat {             /* extended structure */
    struct ip_fw rule;      /* must be at offset 0 */
    long    dont_match_prob;        /* 0x7fffffff means 1.0, always fail */
    u_int   dyn_type;  /* type for dynamic rule */
};

struct ip_fw_chain_compat {
	LIST_ENTRY(ip_fw_chain_compat) next;
	struct ip_fw_compat *rule;
};

/*
 * dynamic ipfw rule
 */
 
struct ipfw_dyn_rule_compat {
    struct ipfw_dyn_rule *next ;

    struct ipfw_flow_id id ;
    struct ipfw_flow_id mask ;
    struct ip_fw_chain_compat *chain ;		/* pointer to parent rule	*/
    u_int32_t type ;			/* rule type			*/
    u_int32_t expire ;			/* expire time			*/
    u_int64_t pcnt, bcnt;		/* match counters		*/
    u_int32_t bucket ;			/* which bucket in hash table	*/
    u_int32_t state ;			/* state of this rule (typ. a   */
					/* combination of TCP flags)	*/
} ;

#ifdef BSD_KERNEL_PRIVATE
#pragma pack(4)

struct ip_fw_compat_32 {
	u_int32_t version;		/* Version of this structure.  Should always be */
							/* set to IP_FW_CURRENT_API_VERSION by clients. */
	user32_addr_t context;	/* Context that is usable by user processes to */
							/* identify this rule. */
    u_int64_t fw_pcnt,fw_bcnt;		/* Packet and byte counters */
    struct in_addr fw_src, fw_dst;	/* Source and destination IP addr */
    struct in_addr fw_smsk, fw_dmsk;/* Mask for src and dest IP addr */
    u_short fw_number;		/* Rule number */
    u_int fw_flg;			/* Flags word */
#define IP_FW_MAX_PORTS_COMPAT	10		/* A reasonable maximum */
	union {
		u_short fw_pts[IP_FW_MAX_PORTS_COMPAT];	/* Array of port numbers to match */
#define IP_FW_ICMPTYPES_MAX_COMPAT	128
#define IP_FW_ICMPTYPES_DIM_COMPAT	(IP_FW_ICMPTYPES_MAX_COMPAT / (sizeof(unsigned) * 8))
		unsigned fw_icmptypes[IP_FW_ICMPTYPES_DIM_COMPAT]; /* ICMP types bitmap */
	} fw_uar_compat;
    u_int fw_ipflg;			/* IP flags word */
    u_char fw_ipopt,fw_ipnopt;		/* IP options set/unset */
    u_char fw_tcpopt,fw_tcpnopt;	/* TCP options set/unset */
    u_char fw_tcpf,fw_tcpnf;		/* TCP flags set/unset */
    u_int32_t timestamp;			/* timestamp (tv_sec) of last match */
    union ip_fw_if_compat fw_in_if, fw_out_if;	/* Incoming and outgoing interfaces */
    union {
		u_short fu_divert_port;		/* Divert/tee port (options IPDIVERT) */
		u_short fu_pipe_nr;		/* queue number (option DUMMYNET) */
		u_short fu_skipto_rule;		/* SKIPTO command rule number */
		u_short fu_reject_code;		/* REJECT response code */
		struct sockaddr_in fu_fwd_ip;
    } fw_un_compat;
    u_char fw_prot;			/* IP protocol */
	/*
	 * N'of src ports and # of dst ports in ports array (dst ports
	 * follow src ports; max of 10 ports in all; count of 0 means
	 * match all ports)
	 */
    u_char fw_nports;
    user32_addr_t pipe_ptr;                    /* flow_set ptr for dummynet pipe */
    user32_addr_t next_rule_ptr ;              /* next rule in case of match */
    uid_t fw_uid;			/* uid to match */
    int fw_logamount;			/* amount to log */
    u_int64_t fw_loghighest;		/* highest number packet to log */
};
#pragma pack()

struct ip_fw_compat_64 {
	u_int32_t version;		/* Version of this structure.  Should always be */
							/* set to IP_FW_CURRENT_API_VERSION by clients. */
	user64_addr_t context;			/* Context that is usable by user processes to */
									/* identify this rule. */
    u_int64_t fw_pcnt,fw_bcnt;		/* Packet and byte counters */
    struct in_addr fw_src, fw_dst;	/* Source and destination IP addr */
    struct in_addr fw_smsk, fw_dmsk;/* Mask for src and dest IP addr */
    u_short fw_number;				/* Rule number */
    u_int fw_flg;					/* Flags word */
#define IP_FW_MAX_PORTS_COMPAT	10		/* A reasonable maximum */
	union {
		u_short fw_pts[IP_FW_MAX_PORTS_COMPAT];	/* Array of port numbers to match */
#define IP_FW_ICMPTYPES_MAX_COMPAT	128
#define IP_FW_ICMPTYPES_DIM_COMPAT	(IP_FW_ICMPTYPES_MAX_COMPAT / (sizeof(unsigned) * 8))
		unsigned fw_icmptypes[IP_FW_ICMPTYPES_DIM_COMPAT]; /* ICMP types bitmap */
	} fw_uar_compat;
    u_int fw_ipflg;					/* IP flags word */
    u_char fw_ipopt,fw_ipnopt;		/* IP options set/unset */
    u_char fw_tcpopt,fw_tcpnopt;	/* TCP options set/unset */
    u_char fw_tcpf,fw_tcpnf;		/* TCP flags set/unset */
    u_int64_t timestamp;			/* timestamp (tv_sec) of last match */
    union ip_fw_if_compat fw_in_if, fw_out_if;	/* Incoming and outgoing interfaces */
    union {
		u_short fu_divert_port;		/* Divert/tee port (options IPDIVERT) */
		u_short fu_pipe_nr;			/* queue number (option DUMMYNET) */
		u_short fu_skipto_rule;		/* SKIPTO command rule number */
		u_short fu_reject_code;		/* REJECT response code */
		struct sockaddr_in fu_fwd_ip;
    } fw_un_compat;
    u_char fw_prot;			/* IP protocol */
	/*
	 * N'of src ports and # of dst ports in ports array (dst ports
	 * follow src ports; max of 10 ports in all; count of 0 means
	 * match all ports)
	 */
    u_char fw_nports;
    user64_addr_t pipe_ptr;                    /* flow_set ptr for dummynet pipe */
    user64_addr_t next_rule_ptr ;              /* next rule in case of match */
    uid_t fw_uid;								/* uid to match */
    int fw_logamount;							/* amount to log */
    u_int64_t fw_loghighest;					/* highest number packet to log */
};

struct ipfw_dyn_rule_compat_32 {
    user32_addr_t next ;

    struct ipfw_flow_id id ;
    struct ipfw_flow_id mask ;
    user32_addr_t chain ;		/* pointer to parent rule	*/
    u_int32_t type ;			/* rule type			*/
    u_int32_t expire ;			/* expire time			*/
    u_int64_t pcnt, bcnt;		/* match counters		*/
    u_int32_t bucket ;			/* which bucket in hash table	*/
    u_int32_t state ;			/* state of this rule (typ. a   */
					/* combination of TCP flags)	*/
} ;

struct ipfw_dyn_rule_compat_64 {
    user64_addr_t next ;

    struct ipfw_flow_id id ;
    struct ipfw_flow_id mask ;
    user64_addr_t chain ;		/* pointer to parent rule	*/
    u_int32_t type ;			/* rule type			*/
    u_int32_t expire ;			/* expire time			*/
    u_int64_t pcnt, bcnt;		/* match counters		*/
    u_int32_t bucket ;			/* which bucket in hash table	*/
    u_int32_t state ;			/* state of this rule (typ. a   */
					/* combination of TCP flags)	*/
} ;
#endif /* BSD_KERNEL_PRIVATE */


#define IP_FW_GETNSRCP_COMPAT(rule)		((rule)->fw_nports & 0x0f)
#define IP_FW_SETNSRCP_COMPAT(rule, n)		do {				\
					  (rule)->fw_nports &= ~0x0f;	\
					  (rule)->fw_nports |= (n);	\
					} while (0)
#define IP_FW_GETNDSTP_COMPAT(rule)		((rule)->fw_nports >> 4)
#define IP_FW_SETNDSTP_COMPAT(rule, n)		do {				\
					  (rule)->fw_nports &= ~0xf0;	\
					  (rule)->fw_nports |= (n) << 4;\
					} while (0)

#define fw_divert_port_compat	fw_un_compat.fu_divert_port
#define fw_skipto_rule_compat	fw_un_compat.fu_skipto_rule
#define fw_reject_code_compat	fw_un_compat.fu_reject_code
#define fw_pipe_nr_compat	fw_un_compat.fu_pipe_nr
#define fw_fwd_ip_compat	fw_un_compat.fu_fwd_ip

/*
 * Values for "flags" field .
 */
#define IP_FW_F_COMMAND_COMPAT 0x000000ff	/* Mask for type of chain entry:	*/
#define IP_FW_F_DENY_COMPAT	0x00000000	/* This is a deny rule			*/
#define IP_FW_F_REJECT_COMPAT	0x00000001	/* Deny and send a response packet	*/
#define IP_FW_F_ACCEPT_COMPAT	0x00000002	/* This is an accept rule		*/
#define IP_FW_F_COUNT_COMPAT	0x00000003	/* This is a count rule			*/
#define IP_FW_F_DIVERT_COMPAT	0x00000004	/* This is a divert rule		*/
#define IP_FW_F_TEE_COMPAT	0x00000005	/* This is a tee rule			*/
#define IP_FW_F_SKIPTO_COMPAT	0x00000006	/* This is a skipto rule		*/
#define IP_FW_F_FWD_COMPAT	0x00000007	/* This is a "change forwarding address" rule */
#define IP_FW_F_PIPE_COMPAT	0x00000008	/* This is a dummynet rule */
#define IP_FW_F_QUEUE_COMPAT	0x00000009	/* This is a dummynet queue */

#define IP_FW_F_IN_COMPAT	0x00000100	/* Check inbound packets		*/
#define IP_FW_F_OUT_COMPAT	0x00000200	/* Check outbound packets		*/
#define IP_FW_F_IIFACE_COMPAT	0x00000400	/* Apply inbound interface test		*/
#define IP_FW_F_OIFACE_COMPAT	0x00000800	/* Apply outbound interface test	*/

#define IP_FW_F_PRN_COMPAT	0x00001000	/* Print if this rule matches		*/

#define IP_FW_F_SRNG_COMPAT	0x00002000	/* The first two src ports are a min	*
					 * and max range (stored in host byte	*
					 * order).				*/

#define IP_FW_F_DRNG_COMPAT	0x00004000	/* The first two dst ports are a min	*
					 * and max range (stored in host byte	*
					 * order).				*/

#define IP_FW_F_FRAG_COMPAT	0x00008000	/* Fragment				*/

#define IP_FW_F_IIFNAME_COMPAT	0x00010000	/* In interface by name/unit (not IP)	*/
#define IP_FW_F_OIFNAME_COMPAT	0x00020000	/* Out interface by name/unit (not IP)	*/

#define IP_FW_F_INVSRC_COMPAT	0x00040000	/* Invert sense of src check		*/
#define IP_FW_F_INVDST_COMPAT	0x00080000	/* Invert sense of dst check		*/

#define IP_FW_F_ICMPBIT_COMPAT 0x00100000	/* ICMP type bitmap is valid		*/

#define IP_FW_F_UID_COMPAT	0x00200000	/* filter by uid			*/

#define IP_FW_F_RND_MATCH_COMPAT 0x00800000	/* probabilistic rule match		*/
#define IP_FW_F_SMSK_COMPAT	0x01000000	/* src-port + mask 			*/
#define IP_FW_F_DMSK_COMPAT	0x02000000	/* dst-port + mask 			*/
#define	IP_FW_BRIDGED_COMPAT	0x04000000	/* only match bridged packets		*/
#define IP_FW_F_KEEP_S_COMPAT	0x08000000	/* keep state	 			*/
#define IP_FW_F_CHECK_S_COMPAT	0x10000000	/* check state	 			*/

#define IP_FW_F_SME_COMPAT	0x20000000	/* source = me				*/
#define IP_FW_F_DME_COMPAT	0x40000000	/* destination = me			*/

#define IP_FW_F_MASK_COMPAT	0x7FFFFFFF	/* All possible flag bits mask		*/

/*
 * Flags for the 'fw_ipflg' field, for comparing values of ip and its protocols.
 */
#define	IP_FW_IF_TCPEST_COMPAT	0x00000020	/* established TCP connection */
#define	IP_FW_IF_TCPMSK_COMPAT	0x00000020	/* mask of all TCP values */

/*
 * Definitions for TCP flags.
 */
#define IP_FW_TCPF_FIN_COMPAT		TH_FIN
#define IP_FW_TCPF_SYN_COMPAT		TH_SYN
#define IP_FW_TCPF_RST_COMPAT		TH_RST
#define IP_FW_TCPF_PSH_COMPAT		TH_PUSH
#define IP_FW_TCPF_ACK_COMPAT		TH_ACK
#define IP_FW_TCPF_URG_COMPAT		TH_URG

/*
 * For backwards compatibility with rules specifying "via iface" but
 * not restricted to only "in" or "out" packets, we define this combination
 * of bits to represent this configuration.
 */

#define IF_FW_F_VIAHACK_COMPAT	(IP_FW_F_IN_COMPAT|IP_FW_F_OUT_COMPAT|IP_FW_F_IIFACE_COMPAT|IP_FW_F_OIFACE_COMPAT)

/*
 * Definitions for REJECT response codes.
 * Values less than 256 correspond to ICMP unreachable codes.
 */
#define IP_FW_REJECT_RST_COMPAT	0x0100		/* TCP packets: send RST */


/*
 * ******************************
 * ****** IPFW version zero *****
 * ******************************
 */

/*
 * This union structure identifies an interface, either explicitly
 * by name or implicitly by IP address. The flags IP_FW_F_IIFNAME
 * and IP_FW_F_OIFNAME say how to interpret this structure. An
 * interface unit number of -1 matches any unit number, while an
 * IP address of 0.0.0.0 indicates matches any interface.
 *
 * The receive and transmit interfaces are only compared against the
 * the packet if the corresponding bit (IP_FW_F_IIFACE or IP_FW_F_OIFACE)
 * is set. Note some packets lack a receive or transmit interface
 * (in which case the missing "interface" never matches).
 */

union ip_old_fw_if {
    struct in_addr fu_via_ip;	/* Specified by IP address */
    struct {			/* Specified by interface name */
#define OLD_FW_IFNLEN     10 /* need room ! was IFNAMSIZ */
	    char  name[OLD_FW_IFNLEN];
	    short unit;		/* -1 means match any unit */
    } fu_via_if;
};

/*
 * Format of an IP firewall descriptor
 *
 * fw_src, fw_dst, fw_smsk, fw_dmsk are always stored in network byte order.
 * fw_flg and fw_n*p are stored in host byte order (of course).
 * Port numbers are stored in HOST byte order.
 * Warning: setsockopt() will fail if sizeof(struct ip_fw) > MLEN (108)
 */

struct ip_old_fw {
    u_int64_t fw_pcnt,fw_bcnt;		/* Packet and byte counters */
    struct in_addr fw_src, fw_dst;	/* Source and destination IP addr */
    struct in_addr fw_smsk, fw_dmsk;	/* Mask for src and dest IP addr */
    u_short fw_number;			/* Rule number */
    u_int fw_flg;			/* Flags word */
#define IP_OLD_FW_MAX_PORTS	10		/* A reasonable maximum */
	union {
	u_short fw_pts[IP_OLD_FW_MAX_PORTS];	/* Array of port numbers to match */
#define IP_OLD_FW_ICMPTYPES_MAX	128
#define IP_OLD_FW_ICMPTYPES_DIM	(IP_OLD_FW_ICMPTYPES_MAX / (sizeof(unsigned) * 8))
	unsigned fw_icmptypes[IP_OLD_FW_ICMPTYPES_DIM]; /* ICMP types bitmap */
	} fw_uar;
    u_char fw_ipopt,fw_ipnopt;		/* IP options set/unset */
    u_char fw_tcpf,fw_tcpnf;		/* TCP flags set/unset */
    long timestamp;			/* timestamp (tv_sec) of last match */
    union ip_old_fw_if fw_in_if, fw_out_if;	/* Incoming and outgoing interfaces */
    union {
	u_short fu_divert_port;		/* Divert/tee port (options IPDIVERT) */
	u_short fu_pipe_nr;		/* pipe number (option DUMMYNET) */
	u_short fu_skipto_rule;		/* SKIPTO command rule number */
	u_short fu_reject_code;		/* REJECT response code */
	struct sockaddr_in fu_fwd_ip;
    } fw_un;
    u_char fw_prot;			/* IP protocol */
    u_char fw_nports;			/* N'of src ports and # of dst ports */
					/* in ports array (dst ports follow */
					/* src ports; max of 10 ports in all; */
					/* count of 0 means match all ports) */
    void *pipe_ptr;                    /* Pipe ptr in case of dummynet pipe */
    void *next_rule_ptr ;              /* next rule in case of match */
};

#define IP_OLD_FW_GETNSRCP(rule)		((rule)->fw_nports & 0x0f)
#define IP_OLD_FW_SETNSRCP(rule, n)		do {				\
					  (rule)->fw_nports &= ~0x0f;	\
					  (rule)->fw_nports |= (n);	\
					} while (0)
#define IP_OLD_FW_GETNDSTP(rule)		((rule)->fw_nports >> 4)
#define IP_OLD_FW_SETNDSTP(rule, n)		do {				\
					  (rule)->fw_nports &= ~0xf0;	\
					  (rule)->fw_nports |= (n) << 4;\
					} while (0)

#define old_fw_divert_port	fw_un.fu_divert_port
#define old_fw_skipto_rule	fw_un.fu_skipto_rule
#define old_fw_reject_code	fw_un.fu_reject_code
#define old_fw_pipe_nr	fw_un.fu_pipe_nr
#define old_fw_fwd_ip	fw_un.fu_fwd_ip

/*
 * Values for "flags" field .
 */
#define IP_OLD_FW_F_COMMAND 0x000000ff	/* Mask for type of chain entry:	*/
#define IP_OLD_FW_F_DENY	0x00000000	/* This is a deny rule			*/
#define IP_OLD_FW_F_REJECT	0x00000001	/* Deny and send a response packet	*/
#define IP_OLD_FW_F_ACCEPT	0x00000002	/* This is an accept rule		*/
#define IP_OLD_FW_F_COUNT	0x00000003	/* This is a count rule			*/
#define IP_OLD_FW_F_DIVERT	0x00000004	/* This is a divert rule		*/
#define IP_OLD_FW_F_TEE	0x00000005	/* This is a tee rule			*/
#define IP_OLD_FW_F_SKIPTO	0x00000006	/* This is a skipto rule		*/
#define IP_OLD_FW_F_FWD	0x00000007	/* This is a "change forwarding address" rule */
#define IP_OLD_FW_F_PIPE	0x00000008	/* This is a dummynet rule */

#define IP_OLD_FW_F_IN	0x00000100	/* Check inbound packets		*/
#define IP_OLD_FW_F_OUT	0x00000200	/* Check outbound packets		*/
#define IP_OLD_FW_F_IIFACE	0x00000400	/* Apply inbound interface test		*/
#define IP_OLD_FW_F_OIFACE	0x00000800	/* Apply outbound interface test	*/

#define IP_OLD_FW_F_PRN	0x00001000	/* Print if this rule matches		*/

#define IP_OLD_FW_F_SRNG	0x00002000	/* The first two src ports are a min	*
					 * and max range (stored in host byte	*
					 * order).				*/

#define IP_OLD_FW_F_DRNG	0x00004000	/* The first two dst ports are a min	*
					 * and max range (stored in host byte	*
					 * order).				*/

#define IP_OLD_FW_F_FRAG	0x00008000	/* Fragment				*/

#define IP_OLD_FW_F_IIFNAME	0x00010000	/* In interface by name/unit (not IP)	*/
#define IP_OLD_FW_F_OIFNAME	0x00020000	/* Out interface by name/unit (not IP)	*/

#define IP_OLD_FW_F_INVSRC	0x00040000	/* Invert sense of src check		*/
#define IP_OLD_FW_F_INVDST	0x00080000	/* Invert sense of dst check		*/

#define IP_OLD_FW_F_ICMPBIT 0x00100000	/* ICMP type bitmap is valid		*/

#define IP_OLD_FW_F_MASK	0x001FFFFF	/* All possible flag bits mask		*/

/*
 * For backwards compatibility with rules specifying "via iface" but
 * not restricted to only "in" or "out" packets, we define this combination
 * of bits to represent this configuration.
 */

#define IF_OLD_FW_F_VIAHACK	(IP_OLD_FW_F_IN|IP_OLD_FW_F_OUT|IP_OLD_FW_F_IIFACE|IP_OLD_FW_F_OIFACE)

/*
 * Definitions for TCP flags - abridged
 */
#define IP_OLD_FW_TCPF_ESTAB	0x40

#endif /* _IP_FW_COMPAT_H_ */
